Storage rack for die tooling
Technical Field
The invention relates to the technical field of storage racks, in particular to a storage rack for a die tool.
Background
In the workshop of mill, can use tooling equipment such as various moulds, anchor clamps and examine utensil usually, this type of mould frock itself is heavy and bulky, if directly pile up on the workshop subaerial, has occupied great area, is difficult to realize the purpose of effective categorised storage.
At present, disclose a goods shelves with anti-drop function among the prior art, specifically include universal wheel and bottom plate, bottom plate upper end outside fixedly connected with support frame, support frame upper end fixedly connected with roof, roof lower extreme rear side fixedly connected with posterior lateral plate, posterior lateral plate lower extreme and bottom plate fixed connection, the support frame inboard is through bolt fixedly connected with connecting seat, the inboard fixedly connected with of connecting seat places the board. Through the arranged sliding groove, the baffle, the telescopic groove and the telescopic rod, after goods are placed, the baffle at the end part is pulled, the baffle drives the telescopic rod to slide in the telescopic groove, and meanwhile, the lower roller wheel slides in the sliding groove, so that the baffle is uniformly distributed at the upper end of the placing plate, the effect of shielding and protecting is achieved, and the goods are prevented from falling off when colliding; when not in use, the baffle can be stored to one side of the goods shelf, so that the space is not occupied, and the goods can be taken conveniently.
When using current goods shelves, the mould frock in workshop can be deposited on the board is placed to the multilayer, through slide damper to sheltering from the position to the condition that prevents the unexpected drop of mould frock. However, the die tool is heavy and is directly stored on the multilayer placing plate, so that the die tool is difficult to rapidly take out for use; moreover, the shielding structure formed by the sliding groove, the baffle and the telescopic rod is complex, the baffle cannot be completely stored to one side, the operation of storing and taking the die tool is influenced, and the practicability is low.
Disclosure of Invention
In order to solve the above problems, the present invention aims to provide a storage rack for a mold tool, so as to solve the problem that the mold tool is difficult to be taken out and used quickly because the mold tool has a heavy weight and is directly stored on a multilayer placing plate; moreover, the existing shielding structure is complex, the baffle plate cannot be completely stored to one side, the operation of the die storing and taking tool is influenced, and the practicability is low.
The technical scheme of the storage rack of the die tool is as follows:
the storage rack of the die tool comprises a main support and a plurality of layered racks, the layered racks are arranged on the main support at intervals up and down, and an accommodating space for taking and placing the die tool is arranged between every two adjacent layered racks;
the layered frame comprises transverse supporting rods, longitudinal supporting rods and a plurality of guide wheels, the transverse supporting rods extend along the length direction of the main support, the longitudinal supporting rods extend along the width direction of the main support, and the transverse supporting rods are fixedly connected with the longitudinal supporting rods;
the guide wheels are respectively rotatably mounted on the longitudinal supporting rods, the rotating axes of the guide wheels extend in parallel to the length direction of the main support, the upper edges of the guide wheels are positioned on the same plane, the planes of the upper edges of the guide wheels form a supporting plane, and the supporting plane is higher than the transverse supporting rods and the longitudinal supporting rods on the same layer;
the layering frame is rotatably provided with a blocking member, the upper part of the blocking member is provided with an upper table top, the outer side of the upper table top is provided with a convex part in an upward protruding manner, the inner side of the upper table top is provided with a jacking part, and the jacking part is arranged in a protruding manner towards the radial direction away from the rotating axis of the blocking member;
in a natural state, the bulge part protrudes out of the supporting plane, and the upper table top is in clearance fit with the bottom surface of the die tool; when the die is in a blocking state, the upper table top rotates and tilts around the rotation axis of the blocking piece so as to tightly push the bottom surface of the die tool through the jacking part.
Furthermore, the profile of the boss is in a right trapezoid shape, a first inclined surface which is inclined outwards from top to bottom is arranged on the outer side of the boss, and a straight surface which is vertical to the upper table top is arranged on the inner side of the boss;
the inner side of the stop piece corresponding to the upper table top is provided with a second inclined surface which inclines outwards from top to bottom, and the inner edge of the second inclined surface, which is intersected with the upper table top, forms the jacking portion.
Furthermore, the lower part of the stop piece is provided with a balancing weight, and the gravity center direction of the stop piece is perpendicular to the upper table top, so that the upper table top is distributed on the lower side of the supporting plane in parallel in a natural state.
Furthermore, a limiting part is arranged on the layered frame, the limiting part and the stopping part are arranged oppositely in the width direction of the main support, and the limiting part protrudes upwards from the supporting plane.
Furthermore, at least two transverse supporting rods of the layering frame are arranged in parallel at intervals, and the longitudinal supporting rod is vertically connected between the at least two transverse supporting rods;
the two sides of the longitudinal supporting rod are respectively provided with a transverse shaft, the axial direction of the transverse shaft extends in parallel with the length direction of the main support, and the guide wheel is rotatably installed at the end part of the transverse shaft.
Furthermore, the transverse shafts are symmetrically arranged relative to the longitudinal supporting rod, a plurality of transverse shafts are arranged, the plurality of transverse shafts are distributed in parallel at intervals along the length direction of the longitudinal supporting rod, and the stopping piece is rotatably installed on the transverse shaft close to the outer side.
Furthermore, at least two longitudinal guide rods are arranged on the upper side of the layering frame at intervals in parallel, the longitudinal guide rods are located on the outer side of the guide wheel, and a storage station for placing a die tool is formed between every two adjacent longitudinal support rods.
Further, the outline of main support is the cuboid shape, the main support includes underframe frame, roof and two side frame framves, two side frame fixed connection in underframe frame with between the roof, two cross connection has the stiffener between the side frame, and is a plurality of the layering frame all with two side frame releasable connection.
Furthermore, the side frame comprises an upper boundary beam, a lower boundary beam and a vertical rod, the vertical rod is fixedly connected with the upper boundary beam and the lower boundary beam, and an inclined stay bar is also fixedly connected between the upper boundary beam and the lower boundary beam;
the vertical rod is provided with a plurality of mounting holes, the mounting holes are arranged at intervals along the length direction of the vertical rod, the two sides of the layered frame are respectively provided with an ear plate, the ear plates are provided with through holes, and the through holes are connected with fasteners between the mounting holes.
Further, the layering frame includes threely horizontal branch, it is three the tip of horizontal branch all is equipped with the otic placode, the side frame includes threely the perpendicular pole, it is three the perpendicular pole with the three of layering frame horizontal branch corresponds arranges, the perpendicular pole adopts channel steel to make, the mounting hole set up in channel steel's lateral wall department.
Has the advantages that: the storage rack of the die tool adopts the structural design of a main support and a plurality of layered racks, and the layered racks are arranged on the main support at intervals up and down and can be used for placing the die tool in an accommodating space formed by the layered racks; wherein, the layering frame includes horizontal branch, vertical branch and a plurality of guide pulley, and the axis of rotation of guide pulley is on a parallel with the length direction extension of main support, and the top edge of a plurality of guide pulleys is in the coplanar, and the top edge plane of a plurality of guide pulleys constitutes the support plane, can place the mould frock and move in place on the support plane and along the width direction of main support, and is big to the weight of itself of mould frock, and a plurality of guide pulleys play roll support mould frock, the effect that convenient immigration was taken out.
Moreover, the layered frame is rotatably provided with the stopping piece, the outer side of the upper table top of the stopping piece is provided with a convex part in an upward protruding manner, the inner side of the upper table top of the stopping piece is provided with a jacking part, and the jacking part is arranged in a protruding manner towards the radial direction far away from the rotating axis of the stopping piece, namely the jacking part protrudes out of the circumferential rotating profile of the stopping piece; in a natural state, if the die tool is placed on the supporting plane, the protruding part of the stopping piece protrudes upwards out of the supporting plane, the upper table surface of the stopping piece is in clearance fit with the bottom surface of the die tool, and the guide wheels play a role in stably supporting the die tool.
When the die tool accidentally slides out, the edge of the die tool outwards pushes the protruding portion, meanwhile, the blocking member is driven to rotate, the upper table surface of the blocking member rotates and tilts along with the protruding portion, the bottom surface of the die tool is tightly pushed by the jacking portion to prevent the die tool from continuously sliding out, and the die tool is effectively prevented from accidentally falling. The blocking piece is simple in structure, the blocking piece is manually rotated away from the avoidance support plane, the purpose of complete storage can be achieved, normal operation of the die storing and taking tool is not affected, and the practicability is better.
Drawings
FIG. 1 is a perspective view of a storage rack for a mold tooling in an embodiment of the storage rack for a mold tooling of the present invention;
FIG. 2 is an exploded view of a mold tool storage rack in an embodiment of the mold tool storage rack of the present invention;
FIG. 3 is a schematic perspective view of a layer rack in an embodiment of a storage rack of the mold tooling of the present invention;
FIG. 4 is a schematic top view of a layer rack in an embodiment of a storage rack of the mold tooling of the present invention;
FIG. 5 is a partial exploded view of a layered shelf in an embodiment of a storage shelf of a mold tool of the present invention;
FIG. 6 is a partial top view of the layered shelf of FIG. 5;
FIG. 7 is a partial front view of the layered shelf of FIG. 5;
fig. 8 is a partial side view of the layered shelf of fig. 5.
In the figure: 1-main support, 10-side frame, 100-vertical pole, 101-upper boundary beam, 102-lower boundary beam, 11-bottom frame, 12-top plate, 13-reinforcing rod;
2-a layered frame, 20-a stopping piece, 200-an upper table surface, 201-a convex part and 202-a balancing weight;
21-transverse supporting rod, 22-longitudinal supporting rod, 23-guide wheel, 24-transverse shaft, 25-positioning sleeve, 26-longitudinal guide rod, 27-lug plate, 28-limiting piece and 29-positioning hole.
Detailed Description
The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.
In embodiment 1 of the storage rack for a mold tooling of the present invention, as shown in fig. 1 to 8, the storage rack for a mold tooling includes a main rack 1 and a plurality of shelves 2, the shelves 2 are installed on the main rack 1 at intervals up and down, and an accommodating space for taking and placing the mold tooling is provided between two adjacent shelves 2; the layered rack 2 comprises a transverse supporting rod 21, a longitudinal supporting rod 22 and a plurality of guide wheels 23, wherein the transverse supporting rod 21 extends along the length direction of the main rack 1, the longitudinal supporting rod 22 extends along the width direction of the main rack 1, and the transverse supporting rod 21 is fixedly connected with the longitudinal supporting rod 22; the guide wheels 23 are rotatably mounted on the longitudinal support rods 22 respectively, the rotating axes of the guide wheels 23 extend parallel to the length direction of the main support 1, the upper edges of the guide wheels 23 are located on the same plane, the upper edge planes of the guide wheels 23 form a supporting plane, and the supporting plane is higher than the transverse support rods 21 and the longitudinal support rods 22 on the same layer.
The layered frame 2 is rotatably provided with a stop member 20, the upper part of the stop member 20 is provided with an upper table board 200, the outer side of the upper table board 200 is provided with a convex part 201 in an upward protruding manner, the inner side of the upper table board 200 is provided with a jacking part, and the jacking part is arranged in a protruding manner towards the radial direction far away from the rotating axis of the stop member 20; in a natural state, the protruding part 201 protrudes out of the supporting plane, and the upper table-board 200 is used for being in clearance fit with the bottom surface of the die tool; in the blocking state, the upper table 200 rotates around the rotation axis of the blocking member 20 to tilt up, so as to tightly press the bottom surface of the mold tooling by the pressing portion.
The storage rack of the die tool adopts the structural design of a main support 1 and a plurality of layered racks 2, the layered racks 2 are arranged on the main support 1 at intervals up and down, and the die tool can be placed in an accommodating space formed by the layered racks 2; wherein, layering frame 2 includes horizontal branch 21, vertical branch 22 and a plurality of guide pulley 23, the rotation axis of guide pulley 23 extends in a direction parallel to the length direction of main support 1, the top edge of a plurality of guide pulleys 23 is in the coplanar, the top edge plane of a plurality of guide pulleys 23 constitutes the support plane, can place the mould frock on the support plane and move in place along the width direction of main support 1, it is big to the weight of itself of mould frock, a plurality of guide pulleys 23 play roll support mould frock, the effect of convenient immigration take out.
Moreover, since the stopper 20 is rotatably mounted on the layered frame 2, the outer side of the upper table 200 of the stopper 20 is provided with a protruding portion 201 in an upward protruding manner, the inner side of the upper table 200 of the stopper 20 is provided with a pressing portion, and the pressing portion is arranged in a protruding manner towards the radial direction far away from the rotation axis of the stopper 20, that is, the pressing portion protrudes out of the circumferential rotation profile of the stopper 20; in a natural state, if the mold tooling is placed on the supporting plane, the protruding portion 201 of the stopper 20 protrudes upward from the supporting plane, the upper table 200 of the stopper 20 is in clearance fit with the bottom surface of the mold tooling, and the plurality of guide wheels 23 play a role in stably supporting the mold tooling.
When the die tooling accidentally slides out, the edge of the die tooling pushes the boss 201 outwards, meanwhile, the stopper 20 is driven to rotate, the upper table surface 200 of the stopper 20 rotates and tilts along with the boss, and the pressing part pushes the bottom surface of the die tooling tightly to prevent the die tooling from continuously sliding out, so that the die tooling is effectively prevented from accidentally falling. The blocking piece 20 is simple in structure, the blocking piece 20 is manually rotated away from the avoidance support plane, the purpose of complete storage can be achieved, normal operation of the die storing and taking tool is not affected, and the practicability is better.
In this embodiment, the profile of the protrusion 201 is a right trapezoid, the outer side of the protrusion 201 is provided with a first inclined surface inclined outward from top to bottom, and the inner side of the protrusion 201 is provided with a straight surface perpendicular to the upper table 200; the inner side of the stopper 20 corresponding to the upper table-board 200 is provided with a second inclined surface inclined outwards from top to bottom, and the inner edge of the second inclined surface intersected with the upper table-board 200 forms a top-pressing part. Specifically, the first inclined surface of the protruding portion 201 corresponds to the inclined waist edge of the right trapezoid, the straight surface of the protruding portion 201 corresponds to the straight waist edge of the right trapezoid, and by means of the avoidance design of the first inclined surface of the protruding portion 201, when the mold tool is pushed inwards, the stop member 20 does not need to be manually rotated, the mold tool abuts against the first inclined surface to drive the stop member 20 to rotate inwards in an avoidance mode, and the protruding portion 201 and the jacking portion both avoid the supporting plane, so that the mold tool can be conveniently and directly moved inwards into the layering frame 2.
Moreover, the straight surface of the protruding part 201 is arranged perpendicular to the upper table top 200, which is equivalent to a right-angle bayonet formed between the protruding part 201 and the upper table top 200, so as to form effective stop matching for the edge of the die tool; the inner side of the stop member 20 is provided with a second inclined surface, the top pressing portion is an inner edge formed by the intersection of the second inclined surface and two surfaces of the upper table-board 200, the inner edge is in the upper plane 200 in a natural state, and along with the change of the rotation angle of the stop member 20, the inner edge gradually tilts upwards and tightly pushes against the bottom surface of the die fixture, so that the purpose of stopping the die fixture from sliding out is achieved.
Wherein, the lower part of the stopping member 20 is provided with a balancing weight 202, and the gravity center direction of the stopping member 20 is perpendicular to the upper table-board 200, so that the upper table-board 200 of the stopping member 20 is distributed in parallel at the lower side of the supporting plane in a natural state. The lower part of the stopping member 20 is designed with a balancing weight 202, so that the center of gravity of the whole stopping member 20 is located below the rotation axis thereof, and the stopping member 20 can be driven to automatically return to a natural state without external force, thereby ensuring that the upper table top 200 is flush with and located at the lower side of the supporting plane, and improving the reliability of the stopping member 20 in shielding the die assembly.
In the present embodiment, the layered frame 2 is provided with a limiting member 28, the limiting member 28 and the stopping member 20 are arranged oppositely in the width direction of the main frame 1, and the limiting member 28 protrudes upward from the supporting plane. The longitudinal distance between the stopping piece 20 and the limiting piece 28 is larger than the length of the die tool, so that the die tool can be completely contained and stored, and the die tool can be prevented from accidentally sliding out and dropping and is prevented from moving into a supporting plane exceeding the layering rack 2 by the aid of the arrangement of the stopping piece 20 and the limiting piece 28 in tandem.
The structure of the multiple layered racks 2 is the same, taking one as an example, at least two transverse struts 21 of the layered rack 2 are arranged in parallel at intervals, and the longitudinal strut 22 is vertically connected between at least two transverse struts 21; the longitudinal support rod 22 is provided with a horizontal shaft 24 at both sides, the axial direction of the horizontal shaft 24 extends in parallel with the length direction of the main bracket 1, and a guide wheel 23 is rotatably mounted at the end of the horizontal shaft 24. Specifically, the layered frame 2 includes three transverse struts 21, three longitudinal struts 22 are fixedly connected between two adjacent transverse struts 21, and the three longitudinal struts 22 are distributed in parallel at intervals.
The transverse shafts 24 are symmetrically arranged about the longitudinal support rod 22, a plurality of transverse shafts 24 are arranged on the transverse shafts 24, the plurality of transverse shafts 24 are distributed in parallel at intervals along the length direction of the longitudinal support rod 22, and the stop piece 20 is rotatably arranged on the transverse shafts 24 close to the outer side. Moreover, the positioning sleeve 25 is sleeved on the transverse shaft 24 between the stopper 20 and the corresponding guide wheel 23, and the positioning sleeve 25 is axially matched with the stopper 20 in a blocking manner so as to ensure that the stopper 20 can only be rotationally adjusted relative to the transverse shaft 24.
Moreover, the upper side of the layering frame 2 is provided with at least two longitudinal guide rods 26 at intervals in parallel, the longitudinal guide rods 26 are positioned at the outer side of the guide wheel 23, and a storage station for placing a mold tool is formed between two adjacent longitudinal support rods 26. Preferably, four longitudinal guide rods 26 are provided, four longitudinal guide rods 26 are arranged alternately with three longitudinal struts 22, and the longitudinal guide rods 26 are arranged on the upper side of the layering rack 2, so that three storage stations are defined on the supporting plane to avoid the friction collision of the mold tools on the same layer.
In this embodiment, the outer contour of the main support 1 is rectangular parallelepiped, the main support 1 includes a bottom frame 11, a top plate 12 and two side frames 10, the two side frames 10 are fixedly connected between the bottom frame 11 and the top plate 12, a reinforcing rod 13 is connected between the two side frames 10 in a crossing manner, and the plurality of layered supports 2 are detachably connected with the two side frames 10. The side frame 10 comprises an upper side beam 101, a lower side beam 102 and a vertical rod 100, wherein the vertical rod 100 is fixedly connected with the upper side beam 101 and the lower side beam 102, and a diagonal brace is also fixedly connected between the upper side beam 101 and the lower side beam 102; a plurality of mounting holes have been seted up on vertical pole 100, and a plurality of mounting holes are arranged along vertical pole 100's length direction interval, and the both sides of layering frame 2 are equipped with otic placode 27 respectively, have seted up the perforation on the otic placode 27, are connected with the fastener between the perforation of otic placode 27 and the mounting hole of vertical pole 100, can adjust the position of each layering frame 2 from top to bottom, and structural flexibility is better.
In addition, each layering frame 2 all includes three transverse strut 21, and the tip of the three transverse strut 21 of layering frame 2 all is equipped with otic placode 27, is equipped with four locating holes 29 on the transverse strut of front side, and locating hole 29 can be to the mould frock location, is convenient for push, gets to put simply. The side frame 10 includes three vertical rods 100, the three vertical rods 100 of the side frame 10 are arranged corresponding to the three lateral struts 21 of the layered frame 2, the vertical rods 100 are made of channel steel, and mounting holes are provided at the side walls of the channel steel.
The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.